| Literature DB >> 19262812 |
R Khan, N Alkharouf, H Beard, M Macdonald, I Chouikha, S Meyer, J Grefenstette, H Knap, B Matthews.
Abstract
Soybean root cells undergo dramatic morphological and biochemical changes during the establishment of a feeding site in a compatible interaction with the soybean cyst nematode (SCN). We constructed a cDNA microarray with approximately 1,300 cDNA inserts targeted to identify differentially expressed genes during the compatible interaction of SCN with soybean roots 2 days after infection. Three independent biological replicates were grown and inoculated with SCN, and 2 days later RNA was extracted for hybridization to microarrays and compared to noninoculated controls. Statistical analysis indicated that approximately 8% of the genes monitored were induced and more than 50% of these were genes of unknown function. Notable genes that were more highly expressed 2 days after inoculation with SCN as compared to noninoculated roots included the repetitive proline-rich glycoprotein, the stress-induced gene SAM22, ss-1,3-endoglucanase, peroxidase, and those involved in carbohydrate metabolism, plant defense, and signaling.Entities:
Keywords: Glycine max; Heterodera glycines; SGMD; microarray; plant-pathogen interaction; signaling pathway; soybean cyst nematode; soybean genomics microarray database; syncytium
Year: 2004 PMID: 19262812 PMCID: PMC2620781
Source DB: PubMed Journal: J Nematol ISSN: 0022-300X Impact factor: 1.402